KR20220024091A - Method and apparatus for configuring a plurality of virtual buttons on a device - Google Patents

Abstract

Embodiments described herein relate to methods and apparatus for configuring a plurality of virtual buttons on a device. For example, each of the plurality of virtual buttons may be activated or deactivated based on an operation mode of the device. By activating and deactivating different combinations of a plurality of virtual buttons according to the operation mode of the device, inadvertent interlocking of virtual buttons that would not otherwise be used in the corresponding operation mode can be avoided.

Description

Method and apparatus for configuring a plurality of virtual buttons on a device

Embodiments described herein relate to methods and apparatus for configuring a plurality of virtual buttons on a device. For example, each of the plurality of virtual buttons may be activated or deactivated based on an operation mode of the device.

Physical or mechanical buttons, sometimes referred to as hardware or traditional buttons, typically operate via a hardware component that physically moves when pressed and typically acts like a switch. These buttons are known in the art and are used in a variety of applications. For example, mechanical buttons can be found on the side of today's smartphones to control volume and other settings. These buttons are easily identifiable visually or by touch - typically they are installed spaced apart from the surface of the peripheral device and protrude slightly, so that the user can easily feel their location and engage them with a press. Softkeys and other types of virtual buttons that do not interact directly through the moving portion of a physical button are also known in the art. For example, a touch-sensitive area can act as a virtual button on a smartphone display, a familiar example of which is implementing a virtual keyboard on the smartphone's touch screen. Advantageously, the virtual button can be easily programmed or changed through the use of software. Advantageously, virtual buttons may reduce or eliminate hardware-related problems experienced by physical buttons, such as mechanical failure after prolonged use, difficulty in waterproofing, and other problems known in the art. In addition to virtual buttons integrated with the touch screen, other types of virtual buttons may reside on a housing or non-screen surface of the device. For example, instead of traditional buttons on a surface such as a dashboard, various force sensors, inductive sensors, or similar technologies are used to act as virtual buttons and visually appear to be traditional physical buttons. It is possible to create a non-touch-responsive area.

US2013/0275058 discloses a handheld portable electronic device having a display screen and a framing structure, wherein the framing structure comprises a strain gauge for detecting strain in the framing structure. Thus, a gesture, such as squeezing the side of the device, may be recognized and used as an input to control an application running on the device.

According to some embodiments, a method is provided for configuring a plurality of virtual buttons on a device. The method includes: receiving a first signal indicative of an operating mode of a device; outputting a first control signal operable to respectively activate or deactivate each of a plurality of virtual buttons on the device based on an operation mode of the device; and a second operable to initiate a first tactile or audible response corresponding to one of the plurality of virtual buttons in response to receiving a second signal indicating that one of the plurality of virtual buttons being activated has been engaged by a user of the device. and outputting a control signal.

In accordance with some embodiments, a control circuit is provided for controlling a plurality of virtual buttons on a device. The control circuitry is configured to: receive a first signal indicative of a mode of operation of the device; outputting a first control signal to respectively activate or deactivate each of a plurality of virtual buttons on the device based on an operation mode of the device; and in response to receiving a second signal indicating that one of the plurality of virtual buttons being activated has been enabled by a user of the device, initiate output of a first tactile or auditory response corresponding to the one of the plurality of virtual buttons. and outputting a possible second control signal.

According to some embodiments, an integrated circuit is provided that includes control circuitry for controlling a plurality of virtual buttons on a device. The control circuitry is configured to: receive a first signal indicative of a mode of operation of the device; outputting a first control signal to respectively activate or deactivate each of a plurality of virtual buttons on the device based on an operation mode of the device; and in response to receiving a second signal indicating that one of the plurality of virtual buttons being activated has been enabled by a user of the device, initiate output of a first tactile or auditory response corresponding to the one of the plurality of virtual buttons. and outputting a possible second control signal.

According to some embodiments, a device is provided that includes control circuitry for controlling a plurality of virtual buttons on the device. The control circuitry is configured to: receive a first signal indicative of a mode of operation of the device; outputting a first control signal to respectively activate or deactivate each of a plurality of virtual buttons on the device based on an operation mode of the device; and in response to receiving a second signal indicating that one of the plurality of virtual buttons being activated has been enabled by a user of the device, initiate output of a first tactile or auditory response corresponding to the one of the plurality of virtual buttons. and outputting a possible second control signal.

Traditionally, placement of virtual buttons on a device has been on the "front" of the device (eg, a touch screen), or on a limited number of surfaces designed specifically for user interfaces, with the rest of the device being virtual free from buttons. By placing the virtual button on a limited number of surfaces of the device, the user can easily grab the device (which may be portable) without inadvertently interlocking the virtual button.

Currently, devices such as smartphones have a single front surface that, for example, can be dominated by a touch screen. Other virtual buttons, such as buttons that operate through the use of inductive sensors, may be placed under the touch screen to add additional operability to the touch screen surface.

However, although mechanical buttons may be placed elsewhere on the device, the device is generally free from the presence of virtual buttons in other ways.

If the user wants to press a virtual button or actually the touch screen while using the device, there is a chance that the user's hand will cover at least a portion of the touch screen surface that also acts as a display screen, for example as shown in FIG. 1 . there is.

1 , a device 100 includes a touch display screen 101 and mechanical buttons 102a, 102b. As shown, the user's hand 103 must be on the touch display screen in order to use the user interface. In other embodiments, the device may be associated with industrial equipment, an automobile, or any other structure in which a mechanical or virtual button may be used.

This configuration may obscure information displayed by the touch display screen and thus may be undesirable in some operating modes of the device.

For a better understanding of the embodiments, and to indicate how these embodiments may be practiced, reference will now be made to the accompanying drawings by way of example only.
1 shows a device comprising a touch display screen and a mechanical button according to the prior art;
2A shows a front view of a device in accordance with some embodiments.
2B shows a rear view of a device in accordance with some embodiments.
3 shows a block diagram of a device in accordance with some embodiments.
4 illustrates a method for configuring a plurality of virtual buttons on a device.
5 shows an embodiment of a device operating in an email mode of operation.
6 shows an embodiment of a device 500 operating in a camera mode of operation.

The description below presents exemplary embodiments in accordance with the present disclosure. Additional exemplary embodiments and implementations will be apparent to those skilled in the art. Furthermore, those skilled in the art will recognize that various equivalent techniques may be applied in lieu of or in conjunction with the embodiments set forth below, and all such equivalents are to be considered to be encompassed by the present disclosure.

[Description of the invention]

Steps of any method disclosed herein are not disclosed unless expressly described as one step following or preceding another step and/or implying that one step should follow or precede another step. It need not be performed in the exact order. Any feature of any embodiment disclosed herein may be applied to any other embodiment as appropriate. Likewise, any advantage of any embodiment may apply to any other embodiment, and vice versa. Other objects, features and advantages of the appended embodiments will become apparent from the following description.

BRIEF DESCRIPTION OF THE DRAWINGS Some embodiments contemplated herein will now be described in greater detail with reference to the accompanying drawings. However, other embodiments are included within the scope of the subject matter disclosed herein, and the subject matter disclosed should not be construed as limited only to the embodiments set forth herein; Rather, these embodiments are provided by way of example to convey the scope of the subject matter to those skilled in the art.

2A shows a front view of device 200 .

Device 200 includes a touch screen display 203 . The device 200 also includes a plurality of virtual buttons 201a - 201l disposed along the sides of the device 200 in this embodiment. For example, the plurality of virtual buttons 201a to 201l may be disposed on a non-display surface of the device 200 . The non-display surface may be a metal or other material known in the art suitable for forming a housing or other structure associated with device 200 .

In this embodiment, the device 200 includes a smartphone, and a plurality of virtual buttons 201a to 201l are disposed on the sides 204 and 205 of the device 200 .

2B shows a rear view of device 200 .

In this embodiment, the back 206 of the device 200 includes a plurality of virtual buttons 202a - 202d.

It will be appreciated that any surface of the device may include a virtual button. In particular, any non-display surface of the device may include a virtual button.

The virtual button may be a force sensor, an inductive sensor, a capacitive sensor, a resistive deflection sensing array, or any other mechanism configured to define a touch sensitive area, or any combination of these mechanisms. It can work through use. It will be apparent that any type of virtual button used to replace a mechanical button may be used in embodiments of the present disclosure.

The plurality of virtual buttons may be visually hidden within or on the device. For example, the user may not be aware of the existence of the plurality of virtual buttons when looking at the back or side of the device 200 , and positions of the plurality of virtual buttons may not be otherwise visually or tactically displayed. In another embodiment, the presence of the virtual button may be hidden only when the device is powered off. In the powered off state, one or more of the virtual buttons may be flush with the rest of the device's casing or surrounding area, or otherwise visually and tactilely indistinguishable. However, upon power up or in certain modes of operation, one or more virtual buttons may become detectable through the use of lights, voice or tactile sense (described in more detail below), or other techniques apparent to those skilled in the art. Advantageously, the use of a virtual button that is indistinguishable from other parts of the device in use can create a cleaner look for the device, and as will become more apparent with the benefit of the present disclosure, without obfuscating the physical look or feel. Configurable devices can be created effectively.

3 shows a block diagram of a device 300 . The device 300 may include a plurality of virtual buttons as shown in FIGS. 2A and 2B .

The device 300 includes a control circuit 301 . The control circuit 301 may be configured to communicate with an application processor 302 and/or an orientation module 303 . The application processor 302 may determine, or assist in determining, the mode of operation of the device as described in more detail below. Orientation module 303 may be hardware and/or software based, and in one embodiment may include an accelerometer, an inertial sensor, or other sensor configured to signal the orientation of the device, such as in portrait or landscape mode. In other embodiments, the orientation module 303 may operate more generally as a context-aware module. For example, it can determine characteristics such as whether the device is lying flat on a table, in a wallet or pocket (via light-based sensors), is carried at high speed, and so on. Control circuitry 301 may also be configured to communicate with virtual button controller 304 .

The virtual button controller 304 may be configured to control the virtual button 305 . The virtual button 305 may be located around the device or on another surface, for example as shown in FIGS. 2A and 2B .

The control circuit 301 may be configured to perform a method as shown in FIG. 4 .

4 illustrates a method for configuring a plurality of virtual buttons on a device.

At step 401 , the control circuit is configured to receive a first signal indicative of an operating mode of the device. For example, the first signal may include a signal S ₁ received from the application processor 302 . The first signal S ₁ may indicate a specific application running on the device, for example, a phone application, a gaming application, a camera application, an email application, a music playback application, a video playback application, and the like. In addition, the first signal S ₁ may indicate an operation mode in the form of a state of an application running in the device. For example, when an email application is running, the first signal S ₁ may indicate whether the device display is showing a list of emails from which the user can select one email to read, or the device display indicates that the user can compose a new email. It can indicate whether a box is being displayed.

The first signal may additionally or alternatively include a signal S ₂ received from the orientation module 303 . Signal S ₂ may indicate the orientation of device 300 , and may be generated, for example, from a gyroscope and/or accelerometer that may provide a signal corresponding to orientation module 303 .

In some embodiments, modes of operation may additionally or alternatively include user-defined characteristics. For example, a mode of operation may also indicate whether the user is left-handed or right-handed, or any setting or characteristic distinguishable from other settings or characteristics during operation.

Thus, in other embodiments, the mode of operation of the device may be an application running on the device, a characteristic or parameter in or related to such application, an orientation of the device, a user-defined characteristic, or the device or its user interface or as understood by one of ordinary skill in the art, or It may include other mods related to its software. For example, an operating mode may be defined with respect to one or more specific actions performed within an individual app, as well as an app running on the device.

In step 402 , the control circuit is configured to output a first control signal C ₁ for activating or deactivating each of the plurality of virtual buttons on the device based on the operating mode of the device. When the virtual button is activated, the virtual button may transmit a signal to the virtual button controller in response to detecting the user's touch or press. When a virtual button is disabled, for example, the virtual button may be placed in an operating state that does not detect a user's touch or press, or the signal sent to the virtual button controller is completely blocked or as a result of the virtual button's inactive state. can be partially ignored.

For example, when the virtual button is deactivated, if the deactivated virtual button is touched or pressed by the user, there may be no action performed by the device in response.

By activating and deactivating different combinations of a plurality of virtual buttons according to the operation mode of the device, inadvertent interlocking of virtual buttons that would not otherwise be used in the corresponding operation mode can be avoided. Also, combinations of virtual buttons can be activated or deactivated together to create a unique user interface. For example, two or more adjacent or proximate virtual buttons may be activated together, ie within a predetermined time of each other, such activated buttons implementing other user interface functions, such as a virtual scroll bar, as described in more detail below. can work together to In such an embodiment, the user can swipe across a group of virtual buttons that together act as one large button to scroll the content of the screen or some other function.

The first control signal C ₁ may be output to the virtual button controller 304 capable of controlling operation states of the plurality of virtual buttons. The virtual button controller 304 may, for example, leave a plurality of virtual buttons activated or deactivated in response to a control signal C ₁ , or received from a virtual button that is deactivated by the control signal C ₁ . You can ignore the signal.

For example, referring to the embodiment shown in FIGS. 2A and 2B , at a first signal S ₁ /S ₂ indicating that the device is operating in a gaming mode and is oriented as shown in FIGS. 2A and 2B . In response, first control signal C ₁ activates virtual buttons 201a, 201f, 202a and 202d and buttons 201b, 201c, 201d, 201e, 201g, 201h, 201j, 201k, 201l, 202b and 202c. can be configured to disable However, if the first signal S ₁ /S ₂ indicates that the device is operating in gaming mode but the virtual buttons 201a - 201f are oriented closer to the ground, then the first control signal C ₁ is a virtual It can be configured to enable buttons 201g, 201l, 202a and 202d and disable buttons 201a, 201b, 201c, 201d, 201e, 201f, 201h, 201j, 201k, 202b and 202c.

It will be appreciated that in some modes of operation, all of the plurality of virtual buttons may be disabled. For example, when the device is not in use (eg, there are no applications dynamically running on the device), it may be desirable for all virtual buttons to be disabled. Determining the context of the device in this regard may be facilitated by the orientation module 303 of FIG. 3 .

In step 403 , the control circuit 301 applies a second signal S L to one of the plurality of virtual buttons, in response to receiving a second signal S _L indicating that one of the plurality of virtual buttons to be activated has been enabled by a user of the device. and output a second control signal C ₂ operable to initiate output of a corresponding first tactile or auditory or visual response. In this embodiment, enabling the button means that the button is pressed, otherwise touched, or activated to initiate a responsive action related to the device or software running on the device. In a typical embodiment, enabling the virtual button would be similar to pressing a mechanical button, in response to initiating an action. However, in other embodiments, enabling the virtual button may depend on the degree or type of press or contact from the user. For example, enabling a button may depend on the amount of pressure applied - a "hard" press may produce a different response than a "soft" press, each with a different response and Many different pressure levels that can be correlated can be sensed. In other embodiments, the virtual button may be enabled via one or more touch gestures (eg, swipe, pinch, tap, two-finger tap, etc.) that may be configured for different responses. More generally, embodiments of the present disclosure contemplate any such enable or activation or similar effect that will be apparent to one of ordinary skill in the art.

In some embodiments, a first tactile response may be provided that is associated with one or more of the plurality of virtual buttons. According to some embodiments, the tactile response may be any tactile sensation created in or on the device, preferably designed to create the impression that the virtual button itself has created such sensation. In one embodiment, the tactile response may be generated by one or more vibration motors or Linear Resonant Actuators (LRAs) or similar devices. As is known in the art, tactile responses can be tailored to simulate mechanical button clicks and many other sensations, including various surface textures, all of which can be used in embodiments of the present disclosure. In other embodiments, the first haptic response may be provided by a separate haptic device 306 . In some embodiments, the first auditory response is provided by the speaker 307 . In some embodiments, a first tactile response and a first auditory response may be provided together. In other embodiments, a visual response may be provided by a visual indicator 309 . For example, the visual response may be accomplished using an LED or other light at or near the location of the virtual button, for example by signaling that such button is enabled or has been enabled in a particular way.

The virtual button may be enabled by the user when the user touches or presses a location of the virtual button on the surface of the device in some way.

The first tactile, auditory and/or visual response may be configured to indicate a location of one of the plurality of virtual buttons that are activated.

For example, returning to FIGS. 2A and 2B , when the user places the device in, for example, a gaming mode of operation, the user can use their fingers to find activated virtual buttons on the back and sides of the device 200 . . Because the user will see the touch screen 203 when using the device 200 in this configuration, it may not be practical in this particular embodiment to use a visual cue to notify the user about the location of an activated virtual button. there is.

At step 403 , when the user locates the activated virtual button, the user may be notified by the first tactile response that the appropriate location has been found on the surface.

However, in some embodiments, the location of some or all of the virtual buttons may be additionally or alternatively determined by an indentation or pattern on the surface of the device that a user may feel at the location of the virtual button, or by some other physical property of the device. may be notified to the user.

In some embodiments, a virtual button may be provided with a touch screen. For example, the sides 204 , 205 of the device 200 may include a touch screen 308 as well as the back side. As the user moves his/her finger along the touch screen to a location on one of the plurality of virtual buttons, the touch screen 308 generates a second signal indicating that one of the plurality of virtual buttons being activated has been enabled by the user of the device. (S _L ) to the control circuitry. In this embodiment, the virtual button may be enabled by the user placing this finger in the correct location on the surface of the device.

In some embodiments, one or more of the plurality of virtual buttons may be sensitive to different types of interaction by the user. For example, the virtual button may distinguish between the user touching the location of the virtual button and the user applying pressure to the location of the virtual button.

Accordingly, in this embodiment, the activated virtual button may be capable of two or more interlocking modes.

Accordingly, in operation 403 , the second signal S _L may indicate that one of the plurality of activated virtual buttons is interlocked by the user of the device in the first interworking mode. For example, when the user touches a position of one of the plurality of virtual buttons without application of any additional pressure or with a pressure level below a certain threshold, one of the plurality of virtual buttons is engaged in the first interlocking mode.

As described above, the first tactile response may then indicate to the user the location of one of the plurality of virtual buttons.

In some embodiments, the control circuitry is responsive to receiving a third signal S _P indicating that one of the plurality of buttons has been engaged by a user of the device in the second interlocked mode, corresponding to one of the plurality of virtual buttons. and output a third control signal C ₃ operable to initiate a second tactile or auditory or visual response. In some embodiments, the second tactile response may be provided by one of a plurality of virtual buttons. In other embodiments, the second haptic response may be provided by a separate haptic device 306 . In some embodiments, the second auditory response is provided by the speaker 307 . In some embodiments, the second visual response is provided by the visual indicator 309 . In some embodiments, two or more of a second tactile response, a second auditory response, and a second visual response may be provided together.

One of the plurality of virtual buttons may be interlocked in the second interlocking mode when the user applies pressure to a position of one of the plurality of virtual buttons. For example, one of the plurality of virtual buttons may be engaged in the second interlocking mode when the user applies a level pressure above a specific threshold to a position of one of the plurality of virtual buttons.

The second tactile or auditory response may be different from the first tactile or auditory response, and in some embodiments may simulate a click associated with a traditional or mechanical button press.

For example, when a user places the device in a gaming mode as shown in FIG. 2A , the control circuitry may activate virtual buttons 201a , 201f , 202a , 202d , for example. These activated virtual buttons may provide specific actions within the gaming mode of the device 200 .

Thereafter, the user can find the activated virtual button by holding the device 200 and moving his or her finger along the top edge 204 and the back surface of the device 200 while looking at the touch screen 203 . When the user's finger touches the location of one of the activated virtual buttons (either the activated virtual button itself or sensed by the touch screen 308), a first tactile or auditory response indicates that the user has found the activated virtual button. can inform

In some embodiments, a first tactile or auditory response may be provided when the user initially touches the location of the activated virtual button, and if the user continues to touch the location of the activated virtual button, the first tactile response is may not be repeated.

Once the user has found the virtual button they want to use, the user can create a response within the gaming mode by “pressing” the virtual button (eg, button 201a can cause the avatar in the game to jump). On the other hand, the button 201f can crouch the avatar in the game).

When the user presses the virtual button, for example when the user applies a pressure level above a certain threshold to the location of the virtual button, the user may be notified that the virtual button has been pressed by a second tactile or auditory response. .

In some embodiments, the virtual button may be configured with a certain threshold and may output a signal upon detecting a pressure above a certain threshold to indicate that the button has been pressed. In some embodiments, a touch screen (eg, a touch screen) may be used to adjust certain thresholds. For example, the touch screen may detect that the user's finger is close to the virtual button but not exactly at the location of the virtual button. In this case, the virtual button could still detect pressure from the user, but the virtual button could be configured to lower the level of a certain threshold to avoid the user having to apply more pressure to trigger the same threshold. there is. The virtual button may be configured by the virtual button controller 304 . The virtual button controller 304 may receive an indication of the user's finger position from the touch screen 308 , and in response may provide appropriate control of a particular threshold for the virtual button.

It will be appreciated that different types of user interaction may trigger different interlocking modes of the virtual button. For example, the virtual button may be distinguishable by the user tapping a location, the user touching the location of the virtual button for an extended period of time, the user touching the location of the virtual button across the location, or the virtual button It may be linked to the first interlocking mode by dragging any other touch pattern.

It will also be understood that for different modes of operation, different combinations of virtual buttons may be activated, and the same virtual button may provide different actions in different modes of operation.

5 shows an embodiment of a device 500 operating in an email mode of operation. Display screen 510 shows a list of emails.

In this embodiment, the first signal may indicate to the control circuit 301 that an email app is open and the device is held in portrait mode, for example as shown in FIG. 5 . The first signal may also indicate whether the user is right-handed or left-handed.

In response to this first signal, the control circuit may activate virtual buttons 501 - 504 if the first signal indicates that the user is left-handed, and if the first signal indicates that the user is right-handed, the virtual button ( 505 to 508) can be activated. Any other virtual buttons (eg, virtual buttons 509 and 510) may be disabled.

Consider an embodiment in which the user is left-handed.

In this embodiment, grouped virtual buttons work together, and the user may associate two or more virtual buttons within a predetermined time period, for example by swiping a finger across the virtual buttons, to cause the email app to scroll up and down through the email list. make it possible In particular, the user may hold the device 500 with his or her left hand and use his or her thumb to swipe up and down in turn over the four virtual buttons 501 - 504 .

Thus, the virtual buttons 501 to 504 can be effectively implemented as virtual scroll wheels, and as the user engages each virtual button, a tactile or auditory response simulating a mechanical scroll wheel click when rotated can be provided. there is.

It will be appreciated that a single virtual button may be used instead of a plurality of virtual buttons to likewise implement a virtual scroll wheel.

6 shows an embodiment of a device 500 operating in a camera mode of operation. The display screen 510 is currently displaying an image captured by the camera of the device.

In this embodiment, the first signal may indicate to the control circuit 301 that the camera app is open and the device 500 remains in portrait mode, for example as shown in FIG. 6 .

In response to this first signal, the control circuitry may activate virtual buttons 501 - 504 and 509 . Virtual buttons 505 - 508 may be inactive.

In this embodiment, the same virtual buttons 501 to 504 that were used to scroll up and down the list of e-mails in the e-mail mode of operation can be used to zoom in and out of the camera. These virtual buttons may be associated and a tactile or auditory response may be provided as described above with reference to FIG. 5 .

Also, in this camera mode, the virtual button 509 is activated. This virtual button can provide two interlocking modes. The first interworking mode may be used to locate a virtual button, and the second interworking mode may be used to trigger an operation of an application in the device. In some embodiments, a touch screen may be formed on a surface above the virtual button 509 and used to locate the virtual button. For example, the virtual button 509 may be placed by a user touching a location of the virtual button 509 . Thereafter, as described with reference to FIG. 4 , the control circuitry may initiate output of a first tactile or auditory response indicating to the user that the activated virtual button has been deployed. Once the user has located the virtual button 509 , the user can engage the button by applying pressure to the location of the virtual button 509 (eg, to cause the camera to change mode). Again, as described with reference to FIG. 4 , thereafter the control circuitry may initiate the output of a second tactile or auditory response, wherein the second tactile response may simulate a button press.

It will be appreciated that the addition of a virtual button away from the display screen 510 of the device avoids obscuring the information displayed by the display screen 510 by avoiding using the display screen as a touch screen.

Embodiments may be implemented in electronic, portable and/or battery powered host devices, such as smartphones, audio players, mobile or cellular phones, or handsets. Embodiments may be implemented in one or more integrated circuits provided within such a host device.

It should be understood - particularly by one of ordinary skill in the art having the benefit of the present disclosure - that the various operations described herein with reference to the drawings may be implemented by other circuitry or other hardware components. The order in which each operation of the provided methods is performed may be changed, and various elements of the system illustrated herein may be added, rearranged, combined, omitted, modified, and the like. This disclosure is intended to cover all such modifications and variations, and thus the foregoing description is to be regarded in an illustrative rather than a restrictive sense.

Likewise, although this disclosure refers to specific embodiments, certain modifications and changes may be made to those embodiments without departing from the scope and coverage of the disclosure. Moreover, no solution to any advantage, advantage, or problem described herein in connection with a particular embodiment is intended to be construed as a critical, required, or essential feature or element.

Likewise, additional embodiments having the benefit of this disclosure will be apparent to those skilled in the art, and such embodiments should be considered for inclusion herein.

A person skilled in the art will recognize that some aspects of the above-described apparatus and methods, for example the method performed by the control circuit, may be carried out on a non-volatile carrier such as a disk, CD- or DVD-ROM, programmed memory such as read-only memory (firmware), for example. It may be implemented as processor control code in a medium, or in a data carrier such as an optical or electrical signal carrier. For many applications embodiments of the present invention will be implemented in a Digital Signal Processor (DSP), Application Specific Integrated Circuit (ASIC) or Field Programmable Gate Array (FPGA). Thus, the code may include conventional program code or microcode, or code for configuring or controlling an ASIC or FPGA, for example. The code may also include code for dynamically configuring a reconfigurable device, such as a reprogrammable logic gate array. Likewise, the code may include code for a hardware description language such as Verilog™ or a very high speed integrated circuit Hardware Description Language (VHDL). As will be appreciated by one of ordinary skill in the art, code may be distributed among a plurality of coupled components that communicate with each other. Where appropriate, embodiments may also be implemented using code executing on field (re)programmable analog arrays or similar devices to construct analog hardware.

The term module as used herein may be implemented at least in part by dedicated hardware components, such as custom defined circuits, and/or implemented at least in part by suitable code running on one or more software processors or suitable general purpose processors, etc. It should be noted that it should be used to refer to a functional unit or block that may be A module may itself include other modules or functional units. A module need not be co-located and may be provided by multiple components or submodules that may be provided on different integrated circuits and/or executable on different processors.

It should be noted that the above-described embodiments are illustrative rather than limiting of the present invention, and that those skilled in the art will be able to design many alternative embodiments without departing from the scope of the appended claims or embodiments. The word "comprising" does not exclude the presence of elements or steps other than those listed in a claim or embodiment, the singular ("a" or "an") does not exclude a plural, a single feature or Other units may perform the functions of several units recited in the claims or embodiments. Any reference numbers or labels in a claim or embodiment should not be construed as limiting the scope.

Although the present disclosure and certain representative advantages have been described in detail, it should be understood that various changes, substitutions and modifications may be made herein without departing from the spirit and scope of the disclosure as defined by the appended claims or embodiments. do. Further, the scope of the present disclosure is to contemplate an existing or later developed process, machine, manufacture, composition of matter that performs substantially the same function or achieves substantially the same result as the corresponding embodiment herein may be used. It is not intended to be limited to a particular embodiment of a means, method, or step. Accordingly, the appended claims or embodiments are intended to include within their scope such process, machine, manufacture, composition of matter, means, method, or step.

Claims (23)

A method for configuring a plurality of virtual buttons on a device, comprising:
receiving a first signal indicative of an operating mode of the device;
outputting a first control signal operable to activate or deactivate each of the plurality of virtual buttons on the device based on the operating mode of the device; and
In response to receiving a second signal indicating that one of the plurality of virtual buttons being activated has been engaged by a user of the device, initiating a first tactile, visual or auditory response corresponding to the one of the plurality of virtual buttons outputting a second control signal operable to The method of claim 1 , wherein the one or more virtual buttons comprise one or more of a capacitive sensor, a force sensor, a resistive deflection sensing array, or an inductive sensor. The method of claim 1 , wherein the first tactile or auditory response is configured to indicate a location of the one of the plurality of virtual buttons. 4. The method of claim 3, wherein the second signal indicates that one of the plurality of virtual buttons being activated has been engaged by a user of the device in a first interlocked mode. 5. The method of claim 4, wherein when the user touches the location of the one of the plurality of virtual buttons, the one of the plurality of virtual buttons is engaged in the first interlocking mode. The method of claim 1, wherein the method comprises:
a second tactile or auditory response corresponding to the one of the plurality of virtual buttons in response to receiving a third signal indicating that the one of the plurality of virtual buttons has been engaged by the user of the device in a second interlocking mode and outputting a third control signal operable to initiate The method of claim 6 , wherein the one of the plurality of virtual buttons engages in the second interlocking mode when the user applies pressure to the location of the one of the plurality of virtual buttons. 7. The method of claim 6, further comprising generating the second tactile response such that the second tactile or auditory response simulates a button click corresponding to the one of the plurality of virtual buttons associated with the second interlocking mode. How to. The method of claim 1, wherein the method comprises:
In response to receiving a plurality of second signals indicating that two or more of the plurality of buttons have been engaged by the user of the device within a predetermined time period, a third tactile or auditory response corresponding to the associated virtual button is generated. and outputting a fourth control signal operable to initiate. The method according to claim 1 , wherein the operating mode comprises an application running on the device, for example a phone application, a camera application, a music playback application, a video playback application, a gaming application, an email application. The method of claim 10 , wherein the operating mode comprises a state of the application running on the device. The method of claim 1 , wherein the first control signal may be based on a user-defined characteristic. The method of claim 1 , wherein the second signal is received from a touch screen controller. A control circuit for controlling a plurality of virtual buttons on a device, the control circuit comprising:
receiving a first signal indicative of an operating mode of the device;
outputting a first control signal for respectively activating or deactivating each of the plurality of virtual buttons on the device based on the operation mode of the device; and
In response to receiving a second signal indicating that one of the plurality of virtual buttons being activated has been enabled by a user of the device, a first tactile, visual or auditory response corresponding to the one of the plurality of virtual buttons is activated. and output a second control signal operable to initiate an output. An integrated circuit comprising a control circuit for controlling a plurality of virtual buttons on a device, the control circuit comprising:
receiving a first signal indicative of an operating mode of the device;
outputting a first control signal for respectively activating or deactivating each of the plurality of virtual buttons on the device based on the operation mode of the device; and
In response to receiving a second signal indicating that one of the plurality of virtual buttons being activated has been enabled by a user of the device, a first tactile, visual or auditory response corresponding to the one of the plurality of virtual buttons is activated. and output a second control signal operable to initiate an output. A device comprising control circuitry for controlling a plurality of virtual buttons on the device, the control circuitry comprising:
receiving a first signal indicative of an operating mode of the device;
outputting a first control signal for respectively activating or deactivating each of the plurality of virtual buttons on the device based on the operation mode of the device; and
in response to receiving a second signal indicating that one of the plurality of virtual buttons being activated has been enabled by a user of the device, outputting a tactile, visual or auditory response corresponding to the one of the plurality of virtual buttons and output a second control signal operable to initiate. The device of claim 16 , further comprising the plurality of virtual buttons. The device of claim 17 , wherein the plurality of virtual buttons are disposed on at least one first surface of the device. The device of claim 18 , wherein the second surface of the device comprises a touch screen display. The device of claim 18 , wherein the at least one first surface each comprises a non-display surface. The device of claim 17 , wherein the plurality of virtual buttons are visually hidden from the exterior of the device when assembled. The device of claim 16 , wherein the operating mode of the device comprises an application running on the device, for example a phone application, a camera application, a music playback application, a video playback application, a gaming application, an email application. 23. The device of claim 22, wherein the operating mode of the device comprises a state of the application running on the device.

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